-/*
- slur-configuration.cc -- implement Slur_configuration
-
+/*
+ slur-configuration.cc -- implement Slur_configuration
+
source file of the GNU LilyPond music typesetter
-
+
(c) 2004--2005 Han-Wen Nienhuys <hanwen@xs4all.nl>
-
*/
#include "slur-configuration.hh"
#include "warn.hh"
#include "misc.hh"
#include "item.hh"
-#include "group-interface.hh"
+#include "pointer-group-interface.hh"
#include "slur.hh"
#include "slur-scoring.hh"
#include "spanner.hh"
#include "libc-extension.hh"
Bezier
-avoid_staff_line (Slur_score_state const &state,
+avoid_staff_line (Slur_score_state const &state,
Bezier bez)
{
Offset horiz (1, 0);
&& (int (fabs (my_round (p))) % 2
!= Staff_symbol_referencer::line_count (staff) % 2))
{
- Direction resolution_dir =
- (distance ? state.dir_ : Direction (sign (p - my_round (p))));
+ Direction resolution_dir
+ = (distance ? state.dir_ : Direction (sign (p - my_round (p))));
// TODO: parameter
Real newp = my_round (p) + resolution_dir
* 5 * state.thickness_;
-
+
Real dy = (newp - p) * state.staff_space_ / 2.0;
-
+
bez.control_[1][Y_AXIS] += dy;
bez.control_[2][Y_AXIS] += dy;
}
Real
fit_factor (Offset dz_unit, Offset dz_perp,
- Bezier curve, Direction d, Array<Offset> const &avoid)
+ Bezier curve, Direction d, Array<Offset> const &avoid)
{
Real fit_factor = 0.0;
Offset x0 = curve.control_[0];
for (int i = 0; i < avoid.size (); i++)
{
- Offset z = (avoid[i] - x0) ;
+ Offset z = (avoid[i] - x0);
Offset p (dot_product (z, dz_unit),
- d* dot_product (z, dz_perp));
+ d * dot_product (z, dz_perp));
if (!curve_xext.contains (p[X_AXIS]))
continue;
Real y = curve.get_other_coordinate (X_AXIS, p[X_AXIS]);
if (y)
{
- fit_factor = fit_factor >? (p[Y_AXIS] / y);
+ fit_factor = max (fit_factor, (p[Y_AXIS] / y));
}
}
return fit_factor;
}
-
+
void
Slur_configuration::generate_curve (Slur_score_state const &state,
- Real r_0, Real h_inf )
+ Real r_0, Real h_inf,
+ Array<Offset> const &avoid
+ )
{
- Link_array<Grob> encompasses = state.columns_;
-
- Array<Offset> avoid;
- for (int i = 0; i < encompasses.size (); i++)
- {
- if (state.extremes_[LEFT].note_column_ == encompasses[i]
- || state.extremes_[RIGHT].note_column_ == encompasses[i])
- continue;
-
- Encompass_info inf (state.get_encompass_info (encompasses[i]));
- Real y = state.dir_ * ((state.dir_ * inf.head_) >? (state.dir_ *inf.stem_));
-
- avoid.push (Offset (inf.x_, y + state.dir_ * state.parameters_.free_head_distance_));
- }
-
- Link_array<Grob> extra_encompasses
- = Pointer_group_interface__extract_grobs (state.slur_, (Grob *)0, "encompass-objects");
- for (int i = 0; i < extra_encompasses.size (); i++)
- if (Slur::has_interface (extra_encompasses[i]))
- {
- Grob * small_slur = extra_encompasses[i];
- Bezier b = Slur::get_curve (small_slur);
-
- Offset z = b.curve_point (0.5);
- z += Offset (small_slur->relative_coordinate (state.common_[X_AXIS], X_AXIS),
- small_slur->relative_coordinate (state.common_[Y_AXIS], Y_AXIS));
-
- z[Y_AXIS] += state.dir_ * state.parameters_.free_slur_distance_;
- avoid.push (z);
- }
-
Offset dz = attachment_[RIGHT]- attachment_[LEFT];;
Offset dz_unit = dz;
dz_unit *= 1 / dz.length ();
Real indent, height;
get_slur_indent_height (&indent, &height, dz.length (), h_inf, r_0);
-
Real len = dz.length ();
/* This condition,
- len^2 > 4h^2 + 3 (i + 1/3len)^2 - 1/3 len^2
+ len^2 > 4h^2 + 3 (i + 1/3len)^2 - 1/3 len^2
- is equivalent to:
+ is equivalent to:
- |bez' (0)| < | bez' (.5)|
+ |bez' (0)| < | bez' (.5)|
- when (control2 - control1) has the same direction as
- (control3 - control0). */
-
-
+ when (control2 - control1) has the same direction as
+ (control3 - control0). */
Real max_indent = len / 3.1;
- indent = indent <? max_indent;
-
+ indent = min (indent, max_indent);
+
Real a1 = sqr (len) / 3.0;
Real a2 = 0.75 * sqr (indent + len / 3.0);
Real max_h = a1 - a2;
-
if (max_h < 0)
{
- programming_error ("Slur indent too small.");
- max_h = len / 3.0 ;
+ programming_error ("slur indent too small");
+ max_h = len / 3.0;
}
else
{
max_h = sqrt (max_h);
}
- Real excentricity = robust_scm2double (state.slur_->get_property ("excentricity"), 0);
-
- Real x1 = (excentricity + indent);
- Real x2 = (excentricity - indent);
-
+ Real eccentricity = robust_scm2double (state.slur_->get_property ("eccentricity"), 0);
+
+ Real x1 = (eccentricity + indent);
+ Real x2 = (eccentricity - indent);
+
Bezier curve;
curve.control_[0] = attachment_[LEFT];
curve.control_[1] = attachment_[LEFT] + dz_perp * height * state.dir_
curve.control_[3] = attachment_[RIGHT];
Real ff = fit_factor (dz_unit, dz_perp, curve, state.dir_, avoid);
-
- height = height >? ((height * ff) <? max_h);
+
+ height = max (height, min (height * ff, max_h));
curve.control_[0] = attachment_[LEFT];
curve.control_[1] = attachment_[LEFT] + dz_perp * height * state.dir_
height_ = height;
}
-Slur_configuration::Slur_configuration()
+Slur_configuration::Slur_configuration ()
{
score_ = 0.0;
- index_ = -1;
+ index_ = -1;
};
-
-
-
void
Slur_configuration::score_encompass (Slur_score_state const &state)
{
Real x = state.encompass_infos_[j].x_;
bool l_edge = j == 0;
- bool r_edge = j == state.encompass_infos_.size ()-1;
- bool edge = l_edge || r_edge;
+ bool r_edge = j == state.encompass_infos_.size () - 1;
+ bool edge = l_edge || r_edge;
if (! (x < attachment_[RIGHT][X_AXIS]
&& x > attachment_[LEFT][X_AXIS]))
continue;
-
+
Real y = bez.get_other_coordinate (X_AXIS, x);
if (!edge)
{
Real hd = (head_dy)
? (1 / fabs (head_dy) - 1 / state.parameters_.free_head_distance_)
: state.parameters_.head_encompass_penalty_;
- hd = (hd >? 0)<? state.parameters_.head_encompass_penalty_;
+ hd = min (max (hd, 0.0), state.parameters_.head_encompass_penalty_);
demerit += hd;
}
attachment_[RIGHT][Y_AXIS],
attachment_[LEFT][Y_AXIS]);
- if ( 1 ) // state.dir_ * state.encompass_infos_[j].get_point (state.dir_) > state.dir_ *line_y )
+ if (1) // state.dir_ * state.encompass_infos_[j].get_point (state.dir_) > state.dir_ *line_y )
{
-
- Real closest =
- state.dir_ * (state.dir_ * state.encompass_infos_[j].get_point (state.dir_)
- >? state.dir_ *line_y
- );
+
+ Real closest
+ = state.dir_ * max (state.dir_ * state.encompass_infos_[j].get_point (state.dir_), state.dir_ * line_y);
Real d = fabs (closest - y);
-
+
convex_head_distances.push (d);
}
}
-
-
if (state.dir_ * (y - state.encompass_infos_[j].stem_) < 0)
{
- Real stem_dem = state.parameters_.stem_encompass_penalty_ ;
+ Real stem_dem = state.parameters_.stem_encompass_penalty_;
if ((l_edge && state.dir_ == UP)
|| (r_edge && state.dir_ == DOWN))
stem_dem /= 5;
- demerit += stem_dem;
+ demerit += stem_dem;
}
else if (!edge)
{
// ?
demerit += -state.parameters_.closeness_factor_
- * (state.dir_
- * (y - (ext[state.dir_] + state.dir_ * state.parameters_.free_head_distance_))
- <? 0)
+ * min (state.dir_
+ * (y - (ext[state.dir_] + state.dir_ * state.parameters_.free_head_distance_)), 0.0)
/ state.encompass_infos_.size ();
}
}
Real min_dist = infinity_f;
for (int j = 0; j < convex_head_distances.size (); j++)
{
- min_dist = min_dist <? convex_head_distances[j];
+ min_dist = min (min_dist, convex_head_distances[j]);
avg_distance += convex_head_distances[j];
}
For slurs over 3 or 4 heads, the average distance is not a
good normalizer.
*/
- Real n = convex_head_distances.size ();
+ Real n = convex_head_distances.size ();
if (n <= 2)
{
Real fact = 1.0;
avg_distance /= n;
variance_penalty = state.parameters_.head_slur_distance_max_ratio_;
if (min_dist > 0.0)
- variance_penalty =
- (avg_distance / (min_dist + state.parameters_.absolute_closeness_measure_ ) - 1.0)
- <? variance_penalty;
+ variance_penalty
+ = min ((avg_distance / (min_dist + state.parameters_.absolute_closeness_measure_) - 1.0), variance_penalty);
- variance_penalty = variance_penalty >? 0.0;
+ variance_penalty = max (variance_penalty, 0.0);
variance_penalty *= state.parameters_.head_slur_distance_factor_;
}
Direction d = LEFT;
bool found = false;
Real y = 0.0;
-
+
do
{
/*
We need to check for the bound explicitly, since the
slur-ending can be almost vertical, making the Y
coordinate a bad approximation of the object-slur
- distance.
+ distance.
*/
- Item * as_item = dynamic_cast<Item*> (state.extra_encompass_infos_[j].grob_);
+ Item *as_item = dynamic_cast<Item *> (state.extra_encompass_infos_[j].grob_);
if ((as_item
&& as_item->get_column ()
- == state.extremes_[d] .bound_->get_column ())
+ == state.extremes_[d].bound_->get_column ())
|| state.extra_encompass_infos_[j].extents_[X_AXIS].contains (attachment[d][X_AXIS]))
{
y = attachment[d][Y_AXIS];
if (!slur_wid.contains (x))
continue;
-
+
y = curve_.get_other_coordinate (X_AXIS, x);
}
Real dist = state.extra_encompass_infos_[j].extents_[Y_AXIS].distance (y);
- demerit +=
- fabs (0 >? (state.parameters_.extra_encompass_free_distance_ - dist)) /
- state.parameters_.extra_encompass_free_distance_
+ demerit
+ += fabs (max (0.0, (state.parameters_.extra_encompass_free_distance_ - dist)))
+ / state.parameters_.extra_encompass_free_distance_
* state.extra_encompass_infos_[j].penalty_;
}
#if DEBUG_SLUR_SCORING
{
Real y = attachment_[d][Y_AXIS];
Real dy = fabs (y - state.base_attachments_[d][Y_AXIS]);
-
+
Real factor = state.parameters_.edge_attraction_factor_;
Real demerit = factor * dy;
if (state.extremes_[d].stem_
&& state.extremes_[d].stem_dir_ == state.dir_
- && !Stem::get_beaming (state.extremes_[d].stem_, -d)
- )
+ && !Stem::get_beaming (state.extremes_[d].stem_, -d))
demerit /= 5;
demerit *= exp (state.dir_ * d * slope
- * state.parameters_.edge_slope_exponent_ );
-
+ * state.parameters_.edge_slope_exponent_);
+
score_ += demerit;
#if DEBUG_SLUR_SCORING
score_card_ += to_string ("E%.2f", demerit);
Real slur_dy = slur_dz[Y_AXIS];
Real demerit = 0.0;
- demerit += ((fabs (slur_dy / slur_dz[X_AXIS])
- - state.parameters_.max_slope_) >? 0)
+ demerit += max ((fabs (slur_dy / slur_dz[X_AXIS])
+ - state.parameters_.max_slope_), 0.0)
* state.parameters_.max_slope_factor_;
/* 0.2: account for staffline offset. */
if (!state.is_broken_)
demerit += state.parameters_.steeper_slope_factor_
- * ((fabs (slur_dy) -max_dy) >? 0);
+ * (max (fabs (slur_dy) -max_dy, 0.0));
- demerit += ((fabs (slur_dy/slur_dz[X_AXIS])
- - state.parameters_.max_slope_) >? 0)
+ demerit += max ((fabs (slur_dy / slur_dz[X_AXIS])
+ - state.parameters_.max_slope_), 0.0)
* state.parameters_.max_slope_factor_;
if (sign (dy) == 0
score_ += demerit;
}
-
void
Slur_configuration::score (Slur_score_state const &state)
{
score_extra_encompass (state);
- score_slopes (state);
+ score_slopes (state);
score_edges (state);
score_encompass (state);
}